use crate::common::init_special_chars_once;
use crate::complete::complete_invalidate_path;
use crate::env::{DEFAULT_READ_BYTE_LIMIT, READ_BYTE_LIMIT};
use crate::env::{EnvMode, EnvStack, Environment, setenv_lock, unsetenv_lock};
use crate::flog::FLOG;
use crate::input_common::{update_wait_on_escape_ms, update_wait_on_sequence_key_ms};
use crate::locale::{invalidate_numeric_locale, set_libc_locales};
use crate::reader::{
    reader_change_cursor_end_mode, reader_change_cursor_selection_mode, reader_change_history,
    reader_schedule_prompt_repaint, reader_set_autosuggestion_enabled, reader_set_transient_prompt,
};
use crate::screen::{
    IS_DUMB, LAYOUT_CACHE_SHARED, ONLY_GRAYSCALE, screen_set_midnight_commander_hack,
};
use crate::terminal::ColorSupport;
use crate::terminal::use_terminfo;
use crate::tty_handoff::xtversion;
use crate::wchar::prelude::*;
use crate::wutil::fish_wcstoi;
use crate::{function, terminal};
use std::collections::HashMap;
use std::sync::atomic::{AtomicBool, Ordering};

/// List of all locale environment variable names that might trigger (re)initializing of the locale
/// subsystem. These are only the variables we're possibly interested in.
const LOCALE_VARIABLES: [&wstr; 7] = [
    L!("LANG"),
    L!("LANGUAGE"),
    L!("LC_ALL"),
    L!("LC_MESSAGES"),
    L!("LC_NUMERIC"),
    L!("LC_TIME"),
    L!("LOCPATH"),
];

#[rustfmt::skip]
const CURSES_VARIABLES: [&wstr; 3] = [
    L!("TERM"), L!("TERMINFO"), L!("TERMINFO_DIRS")
];

/// Whether to use `posix_spawn()` when possible.
static USE_POSIX_SPAWN: AtomicBool = AtomicBool::new(false);

/// The variable dispatch table. This is set at startup and cannot be modified after.
static VAR_DISPATCH_TABLE: once_cell::sync::Lazy<VarDispatchTable> =
    once_cell::sync::Lazy::new(|| {
        let mut table = VarDispatchTable::default();

        for name in LOCALE_VARIABLES {
            table.add_anon(name, handle_locale_change);
        }

        for name in CURSES_VARIABLES {
            table.add_anon(name, handle_term_change);
        }

        table.add(L!("TZ"), handle_tz_change);
        table.add_anon(L!("COLORTERM"), handle_fish_term_change);
        table.add_anon(L!("fish_term256"), handle_fish_term_change);
        table.add_anon(L!("fish_term24bit"), handle_fish_term_change);
        table.add_anon(L!("fish_escape_delay_ms"), update_wait_on_escape_ms);
        table.add_anon(
            L!("fish_sequence_key_delay_ms"),
            update_wait_on_sequence_key_ms,
        );
        table.add_anon(L!("fish_emoji_width"), guess_emoji_width);
        table.add_anon(L!("fish_ambiguous_width"), handle_change_ambiguous_width);
        table.add_anon(L!("LINES"), handle_term_size_change);
        table.add_anon(L!("COLUMNS"), handle_term_size_change);
        table.add_anon(L!("fish_complete_path"), handle_complete_path_change);
        table.add_anon(L!("fish_function_path"), handle_function_path_change);
        table.add_anon(L!("fish_read_limit"), handle_read_limit_change);
        table.add_anon(L!("fish_history"), handle_fish_history_change);
        table.add_anon(
            L!("fish_autosuggestion_enabled"),
            handle_autosuggestion_change,
        );
        table.add_anon(L!("fish_transient_prompt"), handle_transient_prompt_change);
        table.add_anon(
            L!("fish_use_posix_spawn"),
            handle_fish_use_posix_spawn_change,
        );
        table.add_anon(L!("fish_trace"), handle_fish_trace);
        table.add_anon(
            L!("fish_cursor_selection_mode"),
            handle_fish_cursor_selection_mode_change,
        );
        table.add_anon(
            L!("fish_cursor_end_mode"),
            handle_fish_cursor_end_mode_change,
        );

        table
    });

type NamedEnvCallback = fn(name: &wstr, env: &EnvStack);
type AnonEnvCallback = fn(env: &EnvStack);

enum EnvCallback {
    Named(NamedEnvCallback),
    Anon(AnonEnvCallback),
}

#[derive(Default)]
struct VarDispatchTable {
    table: HashMap<&'static wstr, EnvCallback>,
}

impl VarDispatchTable {
    /// Add a callback for the variable `name`. We must not already be observing this variable.
    pub fn add(&mut self, name: &'static wstr, callback: NamedEnvCallback) {
        let prev = self.table.insert(name, EnvCallback::Named(callback));
        assert!(prev.is_none(), "Already observing {}", name);
    }

    /// Add an callback for the variable `name`. We must not already be observing this variable.
    pub fn add_anon(&mut self, name: &'static wstr, callback: AnonEnvCallback) {
        let prev = self.table.insert(name, EnvCallback::Anon(callback));
        assert!(prev.is_none(), "Already observing {}", name);
    }

    pub fn dispatch(&self, key: &wstr, vars: &EnvStack) {
        match self.table.get(key) {
            Some(EnvCallback::Named(named)) => (named)(key, vars),
            Some(EnvCallback::Anon(anon)) => (anon)(vars),
            None => (),
        }
    }
}

fn handle_timezone(var_name: &wstr, vars: &EnvStack) {
    let var = vars.get_unless_empty(var_name).map(|v| v.as_string());
    FLOG!(
        env_dispatch,
        "handle_timezone() current timezone var:",
        var_name,
        "=>",
        var.as_ref()
            .map(|v| v.as_utfstr())
            .unwrap_or(L!("MISSING/EMPTY")),
    );
    if let Some(value) = var {
        setenv_lock(var_name, &value, true);
    } else {
        unsetenv_lock(var_name);
    }

    unsafe extern "C" {
        unsafe fn tzset();
    }

    unsafe {
        tzset();
    }
}

/// Update the value of [`FISH_EMOJI_WIDTH`](crate::fallback::FISH_EMOJI_WIDTH).
pub fn guess_emoji_width(vars: &EnvStack) {
    use crate::fallback::FISH_EMOJI_WIDTH;

    if let Some(width_str) = vars.get(L!("fish_emoji_width")) {
        // The only valid values are 1 or 2; we default to 1 if it was an invalid int.
        let new_width = fish_wcstoi(&width_str.as_string()).unwrap_or(1).clamp(1, 2) as isize;
        FISH_EMOJI_WIDTH.store(new_width, Ordering::Relaxed);
        FLOG!(
            term_support,
            "Overriding default fish_emoji_width w/",
            new_width
        );
        return;
    }

    let term_program = vars
        .get(L!("TERM_PROGRAM"))
        .map(|v| v.as_string())
        .unwrap_or_else(WString::new);

    // TODO(term-workaround)
    if xtversion().unwrap_or(L!("")).starts_with(L!("iTerm2 ")) {
        // iTerm2 now defaults to Unicode 9 sizes for anything after macOS 10.12
        FISH_EMOJI_WIDTH.store(2, Ordering::Relaxed);
        FLOG!(term_support, "default emoji width 2 for iTerm2");
    } else if term_program == "Apple_Terminal" && {
        let version = vars
            .get(L!("TERM_PROGRAM_VERSION"))
            .map(|v| v.as_string())
            .and_then(|v| {
                let mut consumed = 0;
                crate::wutil::wcstod::wcstod(&v, '.', &mut consumed).ok()
            })
            .unwrap_or(0.0);
        version as i32 >= 400
    } {
        // Apple Terminal on High Sierra
        FISH_EMOJI_WIDTH.store(2, Ordering::Relaxed);
        FLOG!(term_support, "default emoji width: 2 for", term_program);
    } else {
        // Default to whatever the system's wcwidth gives for U+1F603, but only if it's at least
        // 1 and at most 2.
        #[cfg(not(cygwin))]
        let width = crate::fallback::wcwidth('😃').clamp(1, 2);
        #[cfg(cygwin)]
        let width = 2_isize;
        FISH_EMOJI_WIDTH.store(width, Ordering::Relaxed);
        FLOG!(term_support, "default emoji width:", width);
    }
}

/// React to modifying the given variable.
pub fn env_dispatch_var_change(key: &wstr, vars: &EnvStack) {
    use once_cell::sync::Lazy;

    // We want to ignore variable changes until the dispatch table is explicitly initialized.
    if let Some(dispatch_table) = Lazy::get(&VAR_DISPATCH_TABLE) {
        dispatch_table.dispatch(key, vars);
    }
}

fn handle_fish_term_change(vars: &EnvStack) {
    update_fish_color_support(vars);
    reader_schedule_prompt_repaint();
}

fn handle_change_ambiguous_width(vars: &EnvStack) {
    let new_width = vars
        .get(L!("fish_ambiguous_width"))
        .map(|v| v.as_string())
        // We use the default value of 1 if it was an invalid int.
        .and_then(|fish_ambiguous_width| fish_wcstoi(&fish_ambiguous_width).ok())
        .unwrap_or(1)
        // Clamp in case of negative values.
        .max(0) as isize;
    crate::fallback::FISH_AMBIGUOUS_WIDTH.store(new_width, Ordering::Relaxed);
}

fn handle_term_size_change(vars: &EnvStack) {
    crate::termsize::handle_columns_lines_var_change(vars);
}

fn handle_fish_history_change(vars: &EnvStack) {
    let session_id = crate::history::history_session_id(vars);
    reader_change_history(&session_id);
}

fn handle_fish_cursor_selection_mode_change(vars: &EnvStack) {
    use crate::reader::CursorSelectionMode;

    let inclusive = vars
        .get(L!("fish_cursor_selection_mode"))
        .as_ref()
        .map(|v| v.as_string())
        .map(|v| v == "inclusive")
        .unwrap_or(false);
    let mode = if inclusive {
        CursorSelectionMode::Inclusive
    } else {
        CursorSelectionMode::Exclusive
    };

    reader_change_cursor_selection_mode(mode);
}

fn handle_fish_cursor_end_mode_change(vars: &EnvStack) {
    use crate::reader::CursorEndMode;

    let inclusive = vars
        .get(L!("fish_cursor_end_mode"))
        .as_ref()
        .map(|v| v.as_string())
        .map(|v| v == "inclusive")
        .unwrap_or(false);
    let mode = if inclusive {
        CursorEndMode::Inclusive
    } else {
        CursorEndMode::Exclusive
    };

    reader_change_cursor_end_mode(mode);
}

fn handle_autosuggestion_change(vars: &EnvStack) {
    reader_set_autosuggestion_enabled(vars);
}

fn handle_transient_prompt_change(vars: &EnvStack) {
    reader_set_transient_prompt(vars);
}

fn handle_function_path_change(_: &EnvStack) {
    function::invalidate_path();
}

fn handle_complete_path_change(_: &EnvStack) {
    complete_invalidate_path()
}

fn handle_tz_change(var_name: &wstr, vars: &EnvStack) {
    handle_timezone(var_name, vars);
}

fn handle_locale_change(vars: &EnvStack) {
    init_locale(vars);
}

fn handle_term_change(vars: &EnvStack) {
    guess_emoji_width(vars);
    init_terminal(vars);
    read_terminfo_database(vars);
    reader_schedule_prompt_repaint();
}

fn handle_fish_use_posix_spawn_change(vars: &EnvStack) {
    // Note that if the variable is missing or empty we default to true (if allowed).
    if !cfg!(have_posix_spawn) {
        USE_POSIX_SPAWN.store(false, Ordering::Relaxed);
    } else if let Some(var) = vars.get(L!("fish_use_posix_spawn")) {
        let use_posix_spawn =
            var.is_empty() || crate::wcstringutil::bool_from_string(&var.as_string());
        USE_POSIX_SPAWN.store(use_posix_spawn, Ordering::Relaxed);
    } else {
        USE_POSIX_SPAWN.store(true, Ordering::Relaxed);
    }
}

/// Allow the user to override the limits on how much data the `read` command will process. This is
/// primarily intended for testing, but could also be used directly by users in special situations.
fn handle_read_limit_change(vars: &EnvStack) {
    let read_byte_limit = vars
        .get_unless_empty(L!("fish_read_limit"))
        .map(|v| v.as_string())
        .and_then(|v| {
            // We use fish_wcstoul() to support leading/trailing whitespace
            match (crate::wutil::fish_wcstoul(&v).ok())
                // wcstoul() returns a u64 but want a usize. Handle overflow on 32-bit platforms.
                .and_then(|_u64| usize::try_from(_u64).ok())
            {
                Some(v) => Some(v),
                None => {
                    // We intentionally warn here even in non-interactive mode.
                    FLOG!(warning, "Ignoring invalid $fish_read_limit");
                    None
                }
            }
        });

    match read_byte_limit {
        Some(new_limit) => READ_BYTE_LIMIT.store(new_limit, Ordering::Relaxed),
        None => READ_BYTE_LIMIT.store(DEFAULT_READ_BYTE_LIMIT, Ordering::Relaxed),
    }
}

fn handle_fish_trace(vars: &EnvStack) {
    let enabled = vars.get_unless_empty(L!("fish_trace")).is_some();
    crate::trace::trace_set_enabled(enabled);
}

pub fn env_dispatch_init(vars: &EnvStack) {
    use once_cell::sync::Lazy;

    run_inits(vars);
    // env_dispatch_var_change() purposely suppresses change notifications until the dispatch table
    // was initialized elsewhere (either explicitly as below or via deref of VAR_DISPATCH_TABLE).
    Lazy::force(&VAR_DISPATCH_TABLE);
}

/// Runs the subset of dispatch functions that need to be called at startup.
fn run_inits(vars: &EnvStack) {
    init_locale(vars);
    init_special_chars_once();
    init_terminal(vars);
    guess_emoji_width(vars);
    update_wait_on_escape_ms(vars);
    update_wait_on_sequence_key_ms(vars);
    handle_read_limit_change(vars);
    handle_fish_use_posix_spawn_change(vars);
    handle_fish_trace(vars);
}

/// Updates our idea of whether we support term256 and term24bit (see issue #10222).
fn update_fish_color_support(vars: &EnvStack) {
    // Detect or infer term256 support. If fish_term256 is set, we respect it. Otherwise, infer it
    // from $TERM or use terminfo.

    let term = vars.get_unless_empty(L!("TERM"));
    let term = term.as_ref().map_or(L!(""), |term| &term.as_list()[0]);
    let is_xterm_16color = term == "xterm-16color";

    let supports_256color = if let Some(fish_term256) = vars.get(L!("fish_term256")) {
        let ok = crate::wcstringutil::bool_from_string(&fish_term256.as_string());
        FLOG!(
            term_support,
            "256-color support determined by $fish_term256:",
            ok
        );
        ok
    } else {
        !is_xterm_16color
    };

    let supports_24bit;
    #[allow(unused_parens)]
    if let Some(fish_term24bit) = vars.get(L!("fish_term24bit")).map(|v| v.as_string()) {
        // $fish_term24bit
        supports_24bit = crate::wcstringutil::bool_from_string(&fish_term24bit);
        FLOG!(
            term_support,
            "$fish_term24bit preference: 24-bit color",
            if supports_24bit {
                "enabled"
            } else {
                "disabled"
            }
        );
    } else if (
        // TODO(term-workaround)
        vars.get(L!("STY")).is_some()
    ) {
        // Screen requires "truecolor on" to enable true-color sequences, so we ignore them
        // unless force-enabled.
        supports_24bit = false;
        FLOG!(term_support, "True-color support: disabled for screen");
    } else if let Some(ct) = vars.get(L!("COLORTERM")).map(|v| v.as_string()) {
        // If someone sets $COLORTERM, that's the sort of color they want.
        supports_24bit = ct == "truecolor" || ct == "24bit";
        FLOG!(
            term_support,
            "True-color support",
            if supports_24bit {
                "enabled"
            } else {
                "disabled"
            },
            "per $COLORTERM",
            ct
        );
    } else {
        supports_24bit = !is_xterm_16color && {
            // TODO(term-workaround)
            vars.get_unless_empty(L!("TERM_PROGRAM"))
                .is_none_or(|term| term.as_list()[0] != "Apple_Terminal")
        };
        FLOG!(
            term_support,
            "True-color support",
            if supports_24bit {
                "enabled"
            } else {
                "disabled"
            },
        );
    }

    let mut color_support = ColorSupport::default();
    color_support.set(ColorSupport::TERM_256COLOR, supports_256color);
    color_support.set(ColorSupport::TERM_24BIT, supports_24bit);
    crate::terminal::set_color_support(color_support);
}

pub const MIDNIGHT_COMMANDER_SID: &wstr = L!("MC_SID");

// Initialize the terminal subsystem
fn init_terminal(vars: &EnvStack) {
    let term = vars.get(L!("TERM"));
    let term = term
        .as_ref()
        .and_then(|v| v.as_list().first())
        .map(|v| v.as_utfstr())
        .unwrap_or(L!(""));

    IS_DUMB.store(term == "dumb");
    ONLY_GRAYSCALE.store(term == "ansi-m" || term == "linux-m" || term == "xterm-mono");

    // TODO(term-workaround)
    if vars.get(MIDNIGHT_COMMANDER_SID).is_some() {
        screen_set_midnight_commander_hack();
    }

    update_fish_color_support(vars);
}

pub fn read_terminfo_database(vars: &EnvStack) {
    if !use_terminfo() {
        return;
    }

    // The current process' environment needs to be modified because the terminfo crate will
    // read these variables
    for var_name in CURSES_VARIABLES {
        if let Some(value) = vars
            .getf_unless_empty(var_name, EnvMode::EXPORT)
            .map(|v| v.as_string())
        {
            FLOG!(term_support, "curses var", var_name, "=", value);
            setenv_lock(var_name, &value, true);
        } else {
            FLOG!(term_support, "curses var", var_name, "is missing or empty");
            unsetenv_lock(var_name);
        }
    }

    terminal::setup();

    // Invalidate the cached escape sequences since they may no longer be valid.
    LAYOUT_CACHE_SHARED.lock().unwrap().clear();
}

/// Initialize the locale subsystem
fn init_locale(vars: &EnvStack) {
    let _guard = crate::locale::LOCALE_LOCK.lock().unwrap();

    for var_name in LOCALE_VARIABLES {
        let var = vars
            .getf_unless_empty(var_name, EnvMode::EXPORT)
            .map(|v| v.as_string());
        if let Some(value) = var {
            FLOG!(env_locale, "locale var", var_name, "=", value);
            setenv_lock(var_name, &value, true);
        } else {
            FLOG!(env_locale, "locale var", var_name, "is missing or empty");
            unsetenv_lock(var_name);
        }
    }

    // Safety: we hold the locale lock.
    if !unsafe {
        set_libc_locales(/*log_ok=*/ true)
    } {
        FLOG!(env_locale, "user has an invalid locale configured");
    }

    // Invalidate the cached numeric locale.
    invalidate_numeric_locale();

    #[cfg(feature = "localize-messages")]
    crate::wutil::gettext::update_locale_from_env(vars);
}

pub fn use_posix_spawn() -> bool {
    USE_POSIX_SPAWN.load(Ordering::Relaxed)
}
